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The Langley Aerodrome The Langley Aerodrome

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aviation | aviation | nasa | nasa | potomac | potomac | potomacriver | potomacriver | langley | langley | aerospace | aerospace | aerodrome | aerodrome | aerodrom | aerodrom | nationalaeronauticsandspaceadministration | nationalaeronauticsandspaceadministration | samuellangley | samuellangley | langleyaerodrome | langleyaerodrome | samuelplangley | samuelplangley | samuelpierpointlangley | samuelpierpointlangleyLicense

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See all metadataMartin MBT US Navy photo San Diego 1926 Martin MBT US Navy photo San Diego 1926

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airplane | airplane | ship | ship | martin | martin | sandiego | sandiego | aircraft | aircraft | aviation | aviation | northisland | northisland | torpedo | torpedo | aircraftcarrier | aircraftcarrier | mbt | mbt | bomber | bomber | usnavy | usnavy | usn | usn | warship | warship | biplane | biplane | militaryaviation | militaryaviation | parachutist | parachutist | navalaviation | navalaviation | unitedstatesnavy | unitedstatesnavy | mb1 | mb1 | cv1 | cv1 | ac3 | ac3 | l12a | l12a | glennlmartincompany | glennlmartincompany | torpedobomber | torpedobomber | mtb1 | mtb1 | ussjupiter | ussjupiter | l12 | l12 | av3 | av3 | usslangleycv1 | usslangleycv1 | usslangley | usslangley | liberty12 | liberty12 | libertyengine | libertyengine | liberty12a | liberty12a | libertyl12 | libertyl12 | ussjupiterac3 | ussjupiterac3 | usslangleyav3 | usslangleyav3 | martinmbt | martinmbt | martinmb1 | martinmb1 | libertyl12a | libertyl12aLicense

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See all metadataThe Colony, Achill The Colony, Achill

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dogs | dogs | church | church | hotel | hotel | canine | canine | achill | achill | countymayo | countymayo | printingpress | printingpress | colony | colony | achillisland | achillisland | thecolony | thecolony | connaught | connaught | 1834 | 1834 | comayo | comayo | robertfrench | robertfrench | williamlawrence | williamlawrence | nationallibraryofireland | nationallibraryofireland | dugort | dugort | lawrencecollection | lawrencecollection | lawrencephotographicstudio | lawrencephotographicstudio | thelawrencephotographcollection | thelawrencephotographcollection | nanglesmission | nanglesmission | achillcolony | achillcolony | sirrichardo’donnell | sirrichardo’donnell | slievemór | slievemór | edwardnangle | edwardnangle | maleandfemaleschools | maleandfemaleschools | elizanangle | elizanangle | achillmission | achillmissionLicense

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See all metadataDescription

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usa | us | ship | aviation | aircraftcarrier | flattop | usnavy | usn | carrier | warship | navalaviation | unitedstatesnavy | cv1 | ac3 | ussjupiter | av3 | usslangleycv1 | usslangley | loening | ussjupiterac3 | usslangleyav3License

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ship | aviation | aircraftcarrier | usnavy | usn | carrier | warship | navalaviation | unitedstatesnavy | cv1 | ac3 | ussjupiter | av3 | usslangleycv1 | usslangley | ussjupiterac3 | usslangleyav3License

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ship | aviation | aircraftcarrier | usnavy | usn | carrier | warship | navalaviation | unitedstatesnavy | cv1 | ac3 | ussjupiter | av3 | usslangleycv1 | usslangley | ussjupiterac3 | usslangleyav3License

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ship | aviation | aircraftcarrier | usnavy | usn | carrier | warship | navalaviation | unitedstatesnavy | cv1 | ac3 | ussjupiter | av3 | usslangleycv1 | usslangley | ussjupiterac3 | usslangleyav3License

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See all metadataUSS Langley tied up at North Island, San Diego

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ship | sandiego | aviation | northisland | aircraftcarrier | usnavy | usn | carrier | warship | navalaviation | unitedstatesnavy | cv1 | ac3 | ussjupiter | av3 | usslangleycv1 | usslangley | ussjupiterac3 | usslangleyav3License

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ship | usslexington | aviation | aircraftcarrier | usnavy | usn | carrier | warship | navalaviation | unitedstatesnavy | cv3 | cv2 | cv1 | ac3 | usssaratoga | ussjupiter | av3 | usslangleycv1 | usslexingtoncv2 | usslangley | lexingtonclass | ussjupiterac3 | usslangleyav3License

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See all metadataKoti, trikotniki - križanka Angles, triangles - crossword

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Križanka sestavljena iz besed povezanih s koti in trikotniki. Crossword puzzle build of terms related to the angles and triangles.Subjects

znanstvene vede | sciences | matematika | mathematics | kot | angle | trikotnik | triangle | križanka | crosswordLicense

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See all metadata6.453 Quantum Optical Communication (MIT) 6.453 Quantum Optical Communication (MIT)

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This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following. Quantum optics: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; radiation field quantization and quantum field propagation; P-representation and classical fields. Linear loss and linear amplification: commutator preservation and the Uncertainty Principle; beam splitters; phase-insensitive and phase-sensitive amplifiers. Quantum photodetection: direct detection, heterodyne detection, and homodyne detection.&a This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following. Quantum optics: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; radiation field quantization and quantum field propagation; P-representation and classical fields. Linear loss and linear amplification: commutator preservation and the Uncertainty Principle; beam splitters; phase-insensitive and phase-sensitive amplifiers. Quantum photodetection: direct detection, heterodyne detection, and homodyne detection.&aSubjects

Quantum optics: Dirac notation quantum mechanics | Quantum optics: Dirac notation quantum mechanics | harmonic oscillator quantization | harmonic oscillator quantization | number states | coherent states | and squeezed states | number states | coherent states | and squeezed states | radiation field quantization and quantum field propagation | radiation field quantization and quantum field propagation | P-representation and classical fields | P-representation and classical fields | Linear loss and linear amplification: commutator preservation and the Uncertainty Principle | Linear loss and linear amplification: commutator preservation and the Uncertainty Principle | beam splitters | beam splitters | phase-insensitive and phase-sensitive amplifiers | phase-insensitive and phase-sensitive amplifiers | Quantum photodetection: direct detection | heterodyne detection | and homodyne detection | Quantum photodetection: direct detection | heterodyne detection | and homodyne detection | Second-order nonlinear optics: phasematched interactions | Second-order nonlinear optics: phasematched interactions | optical parametric amplifiers | optical parametric amplifiers | generation of squeezed states | photon-twin beams | non-classical fourth-order interference | and polarization entanglement | generation of squeezed states | photon-twin beams | non-classical fourth-order interference | and polarization entanglement | Quantum systems theory: optimum binary detection | Quantum systems theory: optimum binary detection | quantum precision measurements | quantum precision measurements | quantum cryptography | quantum cryptography | quantum teleportation | quantum teleportationLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadata8.033 Relativity (MIT) 8.033 Relativity (MIT)

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Relativity is normally taken by physics majors in their sophomore year. Topics include: Einstein's postulates; consequences for simultaneity, time dilation, length contraction, clock synchronization; Lorentz transformation; relativistic effects and paradoxes; Minkowski diagrams; invariants and four-vectors; momentum, energy and mass; and particle collisions. Also covered is: Relativity and electricity; Coulomb's law; and magnetic fields. Brief introduction to Newtonian cosmology. There is also an introduction to some concepts of General Relativity; principle of equivalence; the Schwarzchild metric; gravitational red shift, particle and light trajectories, geodesics, and Shapiro delay. Relativity is normally taken by physics majors in their sophomore year. Topics include: Einstein's postulates; consequences for simultaneity, time dilation, length contraction, clock synchronization; Lorentz transformation; relativistic effects and paradoxes; Minkowski diagrams; invariants and four-vectors; momentum, energy and mass; and particle collisions. Also covered is: Relativity and electricity; Coulomb's law; and magnetic fields. Brief introduction to Newtonian cosmology. There is also an introduction to some concepts of General Relativity; principle of equivalence; the Schwarzchild metric; gravitational red shift, particle and light trajectories, geodesics, and Shapiro delay.Subjects

Einstein's postulates | Einstein's postulates | consequences for simultaneity | time dilation | length contraction | clock synchronization | consequences for simultaneity | time dilation | length contraction | clock synchronization | Lorentz transformation | Lorentz transformation | relativistic effects and paradoxes | relativistic effects and paradoxes | Minkowski diagrams | Minkowski diagrams | invariants and four-vectors | invariants and four-vectors | momentum | energy and mass | momentum | energy and mass | particle collisions | particle collisions | Relativity and electricity | Relativity and electricity | Coulomb's law | Coulomb's law | magnetic fields | magnetic fields | Newtonian cosmology | Newtonian cosmology | General Relativity | General Relativity | principle of equivalence | principle of equivalence | the Schwarzchild metric | the Schwarzchild metric | gravitational red shift | particle and light trajectories | geodesics | Shapiro delay | gravitational red shift | particle and light trajectories | geodesics | Shapiro delay | gravitational red shift | gravitational red shift | particle trajectories | particle trajectories | light trajectories | light trajectories | invariants | invariants | four-vectors | four-vectors | momentum | momentum | energy | energy | mass | mass | relativistic effects | relativistic effects | paradoxes | paradoxes | electricity | electricity | time dilation | time dilation | length contraction | length contraction | clock synchronization | clock synchronization | Schwarzchild metric | Schwarzchild metric | geodesics | geodesics | Shaprio delay | Shaprio delay | relativistic kinematics | relativistic kinematics | relativistic dynamics | relativistic dynamics | electromagnetism | electromagnetism | hubble expansion | hubble expansion | universe | universe | equivalence principle | equivalence principle | curved space time | curved space time | Ether Theory | Ether Theory | constants | constants | speed of light | speed of light | c | c | graph | graph | pythagorem theorem | pythagorem theorem | triangle | triangle | arrows | arrowsLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadata6.453 Quantum Optical Communication (MIT) 6.453 Quantum Optical Communication (MIT)

Description

This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; P-representation and classical fields; direct, homodyne, and heterodyne detection; linear propagation loss; phase insensitive and phase sensitive amplifiers; entanglement and teleportation; field quantization; quantum photodetection; phase-matched interactions; optical parametric amplifiers; generation of squeezed states, photon-twin beams, non-classical fourth-order interference, and pola This course is offered to graduate students and covers topics in five major areas of quantum optical communication: quantum optics, single-mode and two-mode quantum systems, multi-mode quantum systems, nonlinear optics, and quantum systems theory. Specific topics include the following: Dirac notation quantum mechanics; harmonic oscillator quantization; number states, coherent states, and squeezed states; P-representation and classical fields; direct, homodyne, and heterodyne detection; linear propagation loss; phase insensitive and phase sensitive amplifiers; entanglement and teleportation; field quantization; quantum photodetection; phase-matched interactions; optical parametric amplifiers; generation of squeezed states, photon-twin beams, non-classical fourth-order interference, and polaSubjects

Quantum optics: Dirac notation quantum mechanics | Quantum optics: Dirac notation quantum mechanics | harmonic oscillator quantization | harmonic oscillator quantization | number states | number states | coherent states | coherent states | and squeezed states | and squeezed states | radiation field quantization and quantum field propagation | radiation field quantization and quantum field propagation | P-representation and classical fields. Linear loss and linear amplification: commutator preservation and the Uncertainty Principle | P-representation and classical fields. Linear loss and linear amplification: commutator preservation and the Uncertainty Principle | beam splitters | beam splitters | phase-insensitive and phase-sensitive amplifiers. Quantum photodetection: direct detection | phase-insensitive and phase-sensitive amplifiers. Quantum photodetection: direct detection | heterodyne detection | heterodyne detection | and homodyne detection. Second-order nonlinear optics: phasematched interactions | and homodyne detection. Second-order nonlinear optics: phasematched interactions | optical parametric amplifiers | optical parametric amplifiers | generation of squeezed states | generation of squeezed states | photon-twin beams | photon-twin beams | non-classical fourth-order interference | non-classical fourth-order interference | and polarization entanglement. Quantum systems theory: optimum binary detection | and polarization entanglement. Quantum systems theory: optimum binary detection | quantum precision measurements | quantum precision measurements | quantum cryptography | quantum cryptography | and quantum teleportation. | and quantum teleportation.License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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This course teaches simple reasoning techniques for complex phenomena: divide and conquer, dimensional analysis, extreme cases, continuity, scaling, successive approximation, balancing, cheap calculus, and symmetry. Applications are drawn from the physical and biological sciences, mathematics, and engineering. Examples include bird and machine flight, neuron biophysics, weather, prime numbers, and animal locomotion. Emphasis is on low-cost experiments to test ideas and on fostering curiosity about phenomena in the world. This course teaches simple reasoning techniques for complex phenomena: divide and conquer, dimensional analysis, extreme cases, continuity, scaling, successive approximation, balancing, cheap calculus, and symmetry. Applications are drawn from the physical and biological sciences, mathematics, and engineering. Examples include bird and machine flight, neuron biophysics, weather, prime numbers, and animal locomotion. Emphasis is on low-cost experiments to test ideas and on fostering curiosity about phenomena in the world.Subjects

approximation | approximation | science | science | engineering | engineering | managing complexity | managing complexity | divide and conquer | divide and conquer | heterogeneous hierarchies | heterogeneous hierarchies | homogeneous hierarchies | homogeneous hierarchies | proportional reasoning | proportional reasoning | conservation/box models | conservation/box models | dimensional analysis | dimensional analysis | special cases | special cases | extreme cases | extreme cases | discretization | discretization | spring models | spring models | symmetry | symmetry | invariance | invariance | discarding information | discarding information | oil imports | oil imports | tree representations | tree representations | gold | gold | random walks | random walks | UNIX | UNIX | triangle bisection | triangle bisection | pentagonal heat flow | pentagonal heat flow | jump heights | jump heights | simple calculus | simple calculus | drag | drag | cycling | cycling | swimming | swimming | flying | flying | flight | flight | algebraic symmetry | algebraic symmetry | densities | densities | hydrogen size | hydrogen size | bending of light | bending of light | Buckingham Pi Theorem | Buckingham Pi Theorem | pulley acceleration | pulley acceleration | waves | wavesLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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This subject introduces the key concepts and formalism of quantum mechanics and their relevance to topics in current research and to practical applications. Starting from the foundation of quantum mechanics and its applications in simple discrete systems, it develops the basic principles of interaction of electromagnetic radiation with matter. Topics covered are composite systems and entanglement, open system dynamics and decoherence, quantum theory of radiation, time-dependent perturbation theory, scattering and cross sections. Examples are drawn from active research topics and applications, such as quantum information processing, coherent control of radiation-matter interactions, neutron interferometry and magnetic resonance. This subject introduces the key concepts and formalism of quantum mechanics and their relevance to topics in current research and to practical applications. Starting from the foundation of quantum mechanics and its applications in simple discrete systems, it develops the basic principles of interaction of electromagnetic radiation with matter. Topics covered are composite systems and entanglement, open system dynamics and decoherence, quantum theory of radiation, time-dependent perturbation theory, scattering and cross sections. Examples are drawn from active research topics and applications, such as quantum information processing, coherent control of radiation-matter interactions, neutron interferometry and magnetic resonance.Subjects

quantum mechanics | quantum mechanics | closed system dynamics | closed system dynamics | composite systems | composite systems | entanglement | entanglement | mixed states | mixed states | open quantum systems | open quantum systems | quantum harmonic oscillator | quantum harmonic oscillator | perturbation theory | perturbation theory | scattering | scattering | interaction with matter | interaction with matterLicense

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadataMAS.865J Quantum Information Science (MIT) MAS.865J Quantum Information Science (MIT)

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This is an advanced graduate course on quantum computation and quantum information, for which prior knowledge of quantum mechanics is required. Topics include quantum computation, advanced quantum error correction codes, fault tolerance, quantum algorithms beyond factoring, properties of quantum entanglement, and quantum protocols and communication complexity. This is an advanced graduate course on quantum computation and quantum information, for which prior knowledge of quantum mechanics is required. Topics include quantum computation, advanced quantum error correction codes, fault tolerance, quantum algorithms beyond factoring, properties of quantum entanglement, and quantum protocols and communication complexity.Subjects

quantum computation | quantum computation | quantum error correction codes | quantum error correction codes | fault tolerance | fault tolerance | quantum algorithms | quantum algorithms | quantum entanglement | quantum entanglement | quantum protocols | quantum protocols | communication complexity | communication complexity | quantum cryptography | quantum cryptography | adiabatic quantum computation | adiabatic quantum computation | MAS.865 | MAS.865 | 6.443 | 6.443 | 8.371 | 8.371License

Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from

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See all metadata10 Billion bits of Entanglement Achieved in Silicon

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Scientists from Oxford University have made a significant step towards an ultrafast quantum computer by successfully generating 10 billion bits of quantum entanglement in silicon for the first time. This podcast explains how. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/Subjects

science | quantum mechanics | silicon | quantum | materials | entanglement | science | quantum mechanics | silicon | quantum | materials | entanglementLicense

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See all metadata10 Billion bits of Entanglement Achieved in Silicon

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Scientists from Oxford University have made a significant step towards an ultrafast quantum computer by successfully generating 10 billion bits of quantum entanglement in silicon for the first time. This podcast explains how. Wales; http://creativecommons.org/licenses/by-nc-sa/2.0/uk/Subjects

science | quantum mechanics | silicon | quantum | materials | entanglement | science | quantum mechanics | silicon | quantum | materials | entanglementLicense

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See all metadataSikorsky HNS-1 (YR-4B) Sikorsky HNS-1 (YR-4B)

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helicopter | helicopter | langley | langley | sikorsky | sikorsky | naca | naca | hns1 | hns1 | fullscaletunnel | fullscaletunnel | yr4b | yr4bLicense

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See all metadataSikorsky JH-19D Chickasaw Helicopter Sikorsky JH-19D Chickasaw Helicopter

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langley | langley | chickasaw | chickasaw | apollocapsule | apollocapsule | sikorskyhelicopter | sikorskyhelicopter | jh19d | jh19dLicense

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See all metadata8 Foot High Speed Wind Tunnel 8 Foot High Speed Wind Tunnel

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nasa | nasa | 1950 | 1950 | aeronautics | aeronautics | windtunnel | windtunnel | naca | naca | nasalangleyresearchcenter | nasalangleyresearchcenterLicense

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See all metadata5-foot Vertical Wind Tunnel 5-foot Vertical Wind Tunnel

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1932 | 1932 | nasa | nasa | windtunnel | windtunnel | naca | naca | nasalangleyresearchcenter | nasalangleyresearchcenterLicense

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See all metadata20-Foot Spin Tunnel 20-Foot Spin Tunnel

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airplanes | airplanes | nasa | nasa | 1941 | 1941 | naca | naca | aerodynamics | aerodynamics | nasalangleyresearchcenter | nasalangleyresearchcenterLicense

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See all metadata16-Foot Transonic Tunnel 16-Foot Transonic Tunnel

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windtunnel | windtunnel | langleyresearchcenter | langleyresearchcenter | 16foottransonictunnel | 16foottransonictunnelLicense

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See all metadata5-Foot Vertical Wind Tunnel 5-Foot Vertical Wind Tunnel

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nasa | nasa | 1930 | 1930 | aeronautics | aeronautics | windtunnel | windtunnel | naca | naca | nasalangleyresearchcenter | nasalangleyresearchcenterLicense

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